The 96-cell high-efficiency HIT N320 solar panel provides your home with a powerful combination of immediate energy savings, long term performance, and sleek beauty. A remarkably low temperature coefficient of -0.258%/°C helps generate greater electricity output even on the hottest days.
Panasonic home solar panels are backed by our industry-leading parts and performance warranty that guarantees minimum power output of 90.76% after 25 years.
- 19.1% module efficiency and sleek all black appearance
- Low temperature coefficient of -0.258%/°C produces higher power output at high temperatures
- Heterojunction technology with ultra-thin amorphous silicon layers reduce electron loss
- Water drainage frame design prevents rain accumulation, eliminates water stains from panel surface
- Complete 25-year warranty on linear power output, parts and product workmanship
N320K Photovoltaic Module HIT BLACK 40mm
Panasonic premium N320K, 40mm solar module delivers greater power conversion, superior long term performance and enhanced aesthetics for every home. Over 40 years of solar research and development goes into every Panasonic HIT high efficiency home solar panel.
Featuring high output 21.5% module efficiency, slim all-black appearance, and 320 watts per panel, N320k provides an advanced renewable energy source with zero emissions.
19.1 % Module efficiency and sleek all black appearance
Greater power output with fewer panels. Space-saving N320K solar panels set the standard for long-term conversion efficiency. Using 96 cells in the same size footprint as 60-cell panels, N320K delivers more power output per square foot, making it ideal for small and large roofs alike.
Enhanced frame design
A new 40mm frame increases durability and strength, being able to handle loads of up to 5400Pa. Also, the water drainage system gives rain water and snow melt a place to go, reducing water stains and soiling. Less dirt on the module means more sunlight getting through to generate power.
Innovative pyramid structure absorbs more sunlight
HIT® modules employ a uniquely effective pyramid structure that optimizes sunlight capture. By reducing outward reflection and directing sun rays inside the cell, HIT absorbs more sunlight than conventional panels. Solar power is then produced at a higher rate, which generates more electricity for your home.
Heterojunction technology minimizes electron loss
HIT® solar modules are designed with thin amorphous silicon layers, reducing electron carrier loss to minimal levels. The result is a remarkably high-efficiency solar cell that produces greater energy output over the long term.
Higher performance at high temperatures
As midday temperatures rise, conventional solar panels weaken and lose their energy-producing power. They fizzle in the heat when you need them most. Featuring an industry leading temperature coefficient of -0.258% /⁰C, patented cell design delivers peak efficiency throughout the day and through the seasons, even in the hottest climates.
Smart water drainage for peak power
Water stains can inhibit optimal sunlight penetration and panel efficiency. A special water drainage system prevents rain water accumulation and eliminates water stains from the panel surface.
Strict quality testing standards ensure long-life performance
At Panasonic, meeting minimum testing standards is not good enough. Stringent performance and durability testing under the most extreme weather conditions lets Panasonic guarantee you decades of safe, efficient, worry-free operation.
25 Year Product and Performance Warranty
A warranty is only as reliable as the company standing behind it. Backed by one of America’s most trusted brands and a century of financial stability, Panasonic warranty covers your entire system, including product and output performance, for 25 years.
Panasonic HIT 320W Solar Panel code: VBHN320KA03
|Connector Type||Multi-Compact® Type IV (MC4™)|
|Dimensions LxWxH||62.6" x 41.5"|
|Manufacturer||Panasonic Eco Solutions|
|Manufacturer Part #||VBHN320KA03|
|Operating temperatures||Black Frame on Black back-sheet|
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